为什么个体的热感觉和痛觉不同?2504个人类基因组数据中trpv破坏性突变的线索

IF 3.3 3区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Channels Pub Date : 2016-03-10 DOI:10.1080/19336950.2016.1162365

Arijit Ghosh, Navneet Kaur, Abhishek Kumar, C. Goswami

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引用次数: 13

摘要

每个人的性格各不相同，他们的感官功能和感知也各不相同。在这些过程中所涉及的分子机制和候选分子被认为是相似的，如果不是相同的。到目前为止，已经确定了几个分子因子，它们在整个系统发育树上相当保守，并参与了这些复杂的感觉功能。其中，瞬态受体电位(TRP)通道的成员因其参与热感觉而被广泛表征。这些通道包括TRPV1到TRPV4通道，它们显示出响应温度变化的复杂热门控行为。这些通道的分子演化与不同物种的热响应密切相关。然而，最近的2504个人类基因组数据表明，这些热敏TRPV通道是高度可变的，并且在人类群体中携带可能的有害突变。这些意想不到的发现可能解释了复杂感觉功能方面的个体差异。

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Why individual thermo sensation and pain perception varies? Clue of disruptive mutations in TRPVs from 2504 human genome data

ABSTRACT Every individual varies in character and so do their sensory functions and perceptions. The molecular mechanism and the molecular candidates involved in these processes are assumed to be similar if not same. So far several molecular factors have been identified which are fairly conserved across the phylogenetic tree and are involved in these complex sensory functions. Among all, members belonging to Transient Receptor Potential (TRP) channels have been widely characterized for their involvement in thermo-sensation. These include TRPV1 to TRPV4 channels which reveal complex thermo-gating behavior in response to changes in temperature. The molecular evolution of these channels is highly correlative with the thermal response of different species. However, recent 2504 human genome data suggest that these thermo-sensitive TRPV channels are highly variable and carry possible deleterious mutations in human population. These unexpected findings may explain the individual differences in terms of complex sensory functions.

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来源期刊

Channels 生物-生化与分子生物学

CiteScore

5.90

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Channels is an open access journal for all aspects of ion channel research. The journal publishes high quality papers that shed new light on ion channel and ion transporter/exchanger function, structure, biophysics, pharmacology, and regulation in health and disease. Channels welcomes interdisciplinary approaches that address ion channel physiology in areas such as neuroscience, cardiovascular sciences, cancer research, endocrinology, and gastroenterology. Our aim is to foster communication among the ion channel and transporter communities and facilitate the advancement of the field.